JP3855046B2 - Information providing position detection method using road-to-vehicle communication - Google Patents

Description

[0001]
[Technical field to which the invention belongs]
The present invention relates to a road-to-vehicle communication system between a road beacon installed on a road and an in-vehicle device mounted on the vehicle. More specifically, the vehicle determines a position to be transmitted next based on information from roadside infrastructure. The present invention relates to a road-vehicle cooperation system for recognition.
[0002]
[Prior art]
Conventionally, road-to-vehicle communication has been performed between a roadside infrastructure such as a beacon installed on the roadside and a vehicle-mounted device in order to provide various information necessary for driving to the vehicle-mounted device mounted on the vehicle. Communication systems are known. In this road-to-vehicle communication system, it is often desirable to receive only information suitable for the traveling direction of the vehicle among the information provided to the in-vehicle device. For this reason, the road-vehicle cooperation system for a vehicle to recognize the position where information should be transmitted next is considered.
[0003]
Based on the information from the conventional roadside infrastructure, as a road-vehicle cooperation system for the vehicle to recognize the position where information should be transmitted next, Japanese Patent Laid-Open No. 10-122870 discloses a unique beacon number for each. By arranging a plurality of associated road beacons along the road and forming a communication area of each road beacon on the road, communication between the road beacon and the in-vehicle device mounted on the vehicle is performed. In the road-to-vehicle communication system, from the road beacon, the local beacon number of the road beacon and the information including the beacon number of the road beacon existing on the upstream side of the road beacon in the vehicle traveling direction are transmitted and received by the in-vehicle device. The local beacon number included in the information is retained, and the previous beacon number included in the received information and the local beacon number previously retained. Comparing compares the beacon number, by checking whether there is a matching beacon ID, the travel direction detection method for detecting the traveling direction of the vehicle is disclosed. However, in this system disclosed in Japanese Patent Laid-Open No. 10-122870, the directionality is confirmed based on the local station beacon number and the previous beacon number. However, in this system, how much information is to be provided next. If the next station beacon cannot be received, it is not possible to determine whether the service is continuing or abnormal.
[0004]
[Problems to be solved by the invention]
The present invention solves the above-mentioned problems of the prior art, makes it clear how far the information to be provided next is, and if the next station beacon cannot be received, whether the service is continuing or abnormal It is an object of the present invention to provide a method that can determine whether or not.
[0005]
[Means for Solving the Problems]
In the present invention, in order to solve the above-mentioned problem, in addition to the local station beacon number, the next station beacon number and the distance information to the next station beacon are added to the beacon information provided on the road.
[0006]
That is, the invention according to claim 1 arranges a plurality of road beacons each having a unique beacon number associated with each road along the road, and forms a communication area of the road beacons on the road. in road-vehicle communication system that communicates with the in-vehicle device mounted in the beacon and the vehicle, the road beacon, the vehicle device of a vehicle traveling transmits road information, the road the vehicle device is provided local station beacon number contained in the information, Tsugikyoku beacon number, and holds information of the distance to Tsugikyoku beacon next station where the travel distance obtained by integrating vehicle speed pulse of the vehicle and the holding comparing the distance to the beacon, with recognizing the information providing position, the Tsugikyoku beacon numbers without and the Tsugikyoku when there is no distance to beacon information provided is complete Wherein the recognizing and.
[0007]
The invention according to claim 2 is the invention according to claim 1, wherein the road information transmitted from the road beacon includes road linear information related to the road, curve shape information existing on the road, and road information. was intersection information, road condition information on the road surface of the traveled road, obstacle information existing on traveling road vehicles information concerning the traveling vehicle, and a cross pedestrian information on pedestrians on the pedestrian crossing that is provided on the traveling road And the local station beacon number, the next station beacon number, and the distance information to the next station beacon are added to the road information as a series of related information.
[0008]
Furthermore, the invention described in claim 3 relates to the road linear information related to the traveling road, curve shape information existing on the traveling road, intersection information provided on the traveling road, road surface of the traveling road in the invention described in claim 2. road status information, obstacle information present on the travel road, the traveling vehicle information concerning the traveling vehicle, and data structures that set of relations to presence or absence of provision of transverse pedestrian information on pedestrians on the pedestrian crossing that is provided on the traveling road The method further includes expressing as:
[0009]
DETAILED DESCRIPTION OF THE INVENTION
An example of information providing position detection according to the present invention will be described with reference to FIG. Here, when the service target vehicle 4 traveling from the left to the right in the direction of the arrow (1) enters the communication area of the road beacon 1 formed on the road, the information “local beacon number 10, Road information including “next station beacon number 1, distance to next station beacon” is provided, and after passing road beacon 1, own station beacon number 10 (defined as base beacon number), next station beacon number 1, next station beacon The distance of 50 m is maintained. Here, the service target vehicle does not have an independent traveling system such as a navigation system.
(2) The vehicle 4 holds the information acquired by the road beacon 1 and compares the distance indicated by the distance 50 m to the next station beacon and the travel distance obtained by integrating the vehicle speed pulse of the own vehicle. Search for the next station beacon.
(3) The vehicle 4 searches and travels until its own station beacon number 1 appears, and if the travel distance of the host vehicle exceeds the distance to the next station beacon acquired by the road beacon 1, the next station beacon search travel is performed. Stop and end processing.
(4) When the vehicle 4 catches the road beacon 2 within a distance of 50 m to the next station beacon held by the road beacon 1, the information “local station beacon number 1, next station beacon number 2, distance to the next station beacon Road information including “200m, base beacon number 10” is provided, and it is confirmed that the base beacon number 10 of the road beacon 2 matches the local station beacon number 10 of the road beacon 1 and is a series of related information provision. And the beacon position where information is provided from the roadside.
(5) The vehicle 4 further holds the next station beacon number 2 and the distance to the next station beacon of 200 m, and starts the same processing as the above (2) and (3).
(6) When the vehicle 4 catches the road beacon 3, the road information including the information “local station beacon number 2, no next station beacon number, no distance to the next station beacon, base beacon number 10” is provided and acquired. Recognizing that there is no next station beacon number and no distance to the next station beacon recognizes that a series of related information provision has ended.
[0010]
Thus, in a preferred embodiment, the present invention arranges a plurality of road beacons each associated with a unique beacon number along a road and forms a communication area of each road beacon on the road. In a road-to-vehicle communication system for performing communication between a road beacon and an in-vehicle device mounted on a vehicle that does not have a self-supporting traveling system (navigation system, etc.), the local beacon number of the road beacon from the road beacon, Road information including the next station beacon number of the next station beacon installed on the upstream side in the vehicle traveling direction of the beacon and the distance to the next station beacon is transmitted. The in-vehicle device is provided with information on its own beacon number, the next station beacon number, and the distance to the next station beacon from the roadside processing device installed on the roadside to the traveling vehicle via the roadside communication device. Holds the own station beacon number, the next station beacon number and the distance to the next station beacon included in the road information received by the in-vehicle device, and keeps the travel distance obtained by integrating the vehicle speed pulse of the own vehicle. The information providing position detecting method is characterized in that the information providing position is recognized by comparing the distance to the next beacon.
[0011]
The configuration of the road-vehicle communication system used by the present invention will be described with reference to FIG. The information providing position detection method of the present invention includes a road beacon 7 that is an infrastructure facility including a roadside processing device 5 that creates road information and a road-to-vehicle communication facility 6 that transmits the information, and information transmitted from the beacon. This is performed using a road-to-vehicle communication system that includes a vehicle-mounted communication device 8 that has a vehicle-mounted device 10 that has a vehicle-mounted device 10 that has a vehicle-mounted processing device 9 that analyzes and determines the information.
[0012]
The road information output from the roadside processing apparatus is, for example, shown in the configuration of road information in FIG. 3, and road information is provided to the vehicle with this basic configuration. Here, the road information provided from the roadside processing apparatus includes “system information” indicating own station information and “service control information” including next station information and service contents as essential information, ”,“ Curve shape information ”and“ Intersection information ”,“ Road surface information ”relating to the road surface of the road,“ Obstacle information ”existing on the road,“ Vehicle information ”relating to the road vehicle, walking on a pedestrian crossing It consists of "crossing pedestrian information" about the person. “Road alignment information”, “curve shape information”, “intersection information”, “road surface condition information”, “obstacle information”, “traveling vehicle information”, and “crossing pedestrian information” are selected according to the contents to be provided. The presence / absence of the selected road information is transmitted by “output information configuration” of “service control information”.
[0013]
The “output information configuration” for transmitting the presence / absence of the selected road information is, for example, shown in FIG. 4 as a data configuration of a series of related information. The output information is expressed as a whole by a bit string, expressed by 0 (off) and 1 (on) of the bit string, and each information item is assigned in the order from the lowest bit address. When the bit information of the corresponding bit string is 1 (on), the information is included in the information provided from the road beacon. When the bit information of the corresponding bit string is 0 (off), the information is not included in the information provided from the beacon.
[0014]
【The invention's effect】
The present invention is implemented in the form described above, and the information provision position can be specified by the beacon position of the next station, and the reliability of information provision is increased. Further, the relevance of information provided from each road beacon can be determined. Furthermore, it has the effect that the reading efficiency of the information structure provided improves.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram of information providing position detection according to the present invention.
FIG. 2 is a configuration diagram of a road-vehicle communication system used by the present invention.
FIG. 3 is a configuration diagram of road information used by the present invention.
FIG. 4 is a configuration diagram of output information according to the present invention.
[Explanation of symbols]
1, 2, 3 Road beacon 4 Vehicle 5 Roadside processing device 6 Road-to-vehicle communication device 7 Road beacon (infrastructure equipment)
8 In-vehicle communication device 9 In-vehicle processing device 10 In-vehicle device 11 Vehicle

Claims (3)

By arranging a plurality of road beacons each having a unique beacon number associated with each road along the road, and forming a road beacon communication area on the road, the road beacon and the in-vehicle device mounted on the vehicle; In a road-to-vehicle communication system that performs
The road beacon transmits road information to an in-vehicle device of a running vehicle,
The in-vehicle device holds the information of the local station beacon number, the next station beacon number, and the distance to the next station beacon included in the provided road information,
The travel distance obtained by integrating the vehicle speed pulses of the host vehicle is compared with the distance to the held next station beacon, the information providing position is recognized, the next station beacon number is not present, and the next station beacon An information providing position detecting method for recognizing that the information providing has been completed when there is no distance to the information.   The road information transmitted from the road beacon exists on the road, such as road alignment information on the road, curve shape information existing on the road, intersection information provided on the road, road surface information on the road surface, and road information. Includes obstacle information, traveling vehicle information about traveling vehicles, and crossing pedestrian information about pedestrians on the pedestrian crossing provided on the traveling road, the local station beacon number, the next station beacon number, and the next station The information providing position detection method according to claim 1, wherein information on a distance to the beacon is added as a series of related information. Road alignment information on the traveling road, curve shape information existing on the traveling road, intersection information provided on the traveling road, road surface information on the road surface of the traveling road, obstacle information existing on the traveling road, traveling vehicle information on the traveling vehicle and further comprising claim 2 information providing position detecting method according to express the presence or absence of provision of transverse pedestrian information on pedestrians on the pedestrian crossing that is provided on the traveling road as a data structure for a set of relationships.

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